DE248665C - - Google Patents

Description

IMPERIAL yk

PATENT OFFICE.

PATENT LETTERING

-M 248665 CLASS 48 δ. GROUP

THE LOHMANN COMPANY in NEW YORK.

easily fusible metal.

Patented in the German Empire on March 30, 1911.

The invention relates to a method for the permanent union of a coating of Lead, zinc, tin or an alloy of the metals of the lead group with objects Iron or steel, if you put them in the bath of a molten one, to be used for protection Metal or a metal alloy is immersed. It is known that the zinc coating on the so-called galvanized

ίο objects attacked by the atmosphere because during electroplating there is a real union of the iron with the metal coating not taking place.

A coating made from an alloy of zinc and lead has been found for items made of iron or steel proved to be more suitable than a protective coating consisting only of zinc alone, but in these cases the lead can also be replaced by other easily fusible metals, such as Tin, to be replaced. The use of alloys instead of pure zinc and the like. is known. It is important for the durability of the coating that it gets into the pores of the to be coated penetrates, so that the protective coating by rubbing or any other mechanical surface treatment can no longer be removed. Therefor it is not enough simply to put the cleaned iron or steel object in

the molten metal bath to be used as a coating is immersed, but the object to be protected must be subjected to a preparatory treatment, and 35

the essence of the invention is based on this.

According to the invention, a mercury should be placed on the surface of the object and iron existing amalgam, which is chemically related both for the protective coating and for the iron or steel. For education of this mercury amalgam becomes the object to be coated in a solution of Mercury chloride or another soluble mercury salt is immersed, after which one the same heated to decompose the mercury salt and metallic mercury knock down the object with simultaneous formation of an amalgam. The so The pretreated object is finally placed in the metal bath while it is still heated immersed in the molten alloy. You can also change the procedure so that that one pretreated with a soluble mercury salt object made of iron or dips steel into the molten metal bath so slowly that the heat of it the decomposition of the mercury salt and the excretion of metallic mercury on the object.

A solution is already available for coating aluminum objects with silver used by mercury chloride, and the coating should then also be very firm adhere to the aluminum metal base. In this case, however, the soluble mercury

60

silver salt is not used to form a mercury amalgam on the metal, but rather rather to pickle away the last traces of fat from the aluminum object, since a shiny silver coating is only available on an absolutely fat-free and oxide-free, metal-pure base can be obtained. The metal bath used for coating is preferably to a temperature of

Heated to 510 ⁰ C., and the object prepared by treating it with a soluble mercury salt is immersed in the metal bath for about 3 minutes, during which time it has assumed the temperature of the bath. The protective coating expediently consists of 10 parts by weight of lead, 10 parts by weight of zinc and one part by weight of tin. This alloy has such ductility that sheet metal or thin objects can be bent without the protective coating flaking off.

. The mercury salt solution suitable for pretreatment is represented in the manner that 226 g of mercury chloride and 226 g of ammonium chloride are dissolved in 21 1 of hydrochloric acid. The acid, of course, serves to remove oxides and contaminants from the surface the metal objects to be coated and the chlorammonium is used for transportation used in the formation of the mercury amalgam. It is sufficient that the objects are immersed in the acidic mercury solution for about 3 minutes immersed, whereupon you dry them off after pulling them out. It then has a Coating of a mercury salt ■ formed on the metal surface and by the subsequent When heated, the mercury precipitates as metal and the amalgam is formed, which, when hot, with brought into contact with the molten bath of the protective metal, combines with it.

The objects made of steel and iron treated according to the method described above are characterized by an extraordinarily strong union of the metallic protective coating with the metal base, and tests have shown that the protective metal penetrates the surface of the metal object, so that every boundary line between the object and the protective metal disappears. This makes it understandable that, when it is completely or partially removed ^"i! Due to wear or abrasion of the metallic protective coating to prevent the article in its substance, yet sufficiently retains therefore under the surface of the protective metal to rusting.

Claims (1)

Patent claim: Process for coating objects made of iron and steel with a Alloy of zinc and lead with or without the addition of a similar easily fusible one Metal, characterized in that the object to be coated with a solution of a mercury salt treated, whereupon it is heated to decompose the mercury salt and as metallic mercury on the Knocking down objects and finally putting him in the heated state Immersed the molten alloy in a metal bath.